Th17 cells are refractory to senescence and retain robust antitumor activity after long-term ex vivo expansion
Jacob S. Bowers, Michelle H. Nelson, Kinga Majchrzak, Stefanie R. Bailey, Baerbel Rohrer, Andrew D.M. Kaiser, Carl Atkinson, Luca Gattinoni, Chrystal M. Paulos
Jacob S. Bowers, Michelle H. Nelson, Kinga Majchrzak, Stefanie R. Bailey, Baerbel Rohrer, Andrew D.M. Kaiser, Carl Atkinson, Luca Gattinoni, Chrystal M. Paulos
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Research Article Immunology Oncology

Th17 cells are refractory to senescence and retain robust antitumor activity after long-term ex vivo expansion

Abstract

Adoptive immunotherapy for solid tumors relies on infusing large numbers of T cells to mediate successful antitumor responses in patients. While long-term rapid-expansion protocols (REPs) produce sufficient numbers of CD8+ T cells for treatment, they also cause decline in the cell’s therapeutic fitness. In contrast, we discovered that IL-17–producing CD4+ T cells (Th17 cells) do not require REPs to expand 5,000-fold over 3 weeks. Also, unlike Th1 cells, Th17 cells do not exhibit hallmarks of senescence or apoptosis, retaining robust antitumor efficacy in vivo. Three-week-expanded Th17 cells eliminated melanoma as effectively as Th17 cells expanded for 1 week when infused in equal numbers into mice. However, treating mice with large recalcitrant tumors required the infusion of all cells generated after 2 or 3 weeks of expansion, while the cell yield obtained after 1-week expansion was insufficient. Long-term-expanded Th17 cells also protected mice from tumor rechallenge including lung metastasis. Importantly, 2-week-expanded human chimeric antigen receptor–positive (CAR+) Th17 cells also retained their ability to regress human mesothelioma, while CAR+ Th1 cells did not. Our results indicate that tumor-reactive Th17 cells are an effective cell therapy for cancer, remaining uncompromised when expanded for a long duration owing to their resistance to senescence.

Authors

Jacob S. Bowers, Michelle H. Nelson, Kinga Majchrzak, Stefanie R. Bailey, Baerbel Rohrer, Andrew D.M. Kaiser, Carl Atkinson, Luca Gattinoni, Chrystal M. Paulos

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Figure 2

Rapid-expansion protocol (REP) does not improve Th17 yield and reduces antitumor efficacy.

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Rapid-expansion protocol (REP) does not improve Th17 yield and reduces a...
(A) Schematic for growth of Th17 and REP Th17 cultures. (B) Yield of Th17 and REP Th17 cells after 2 weeks of culture, representative of 3 independent cultures. (C) CD44 and CD62L memory marker expression on Th17 or REP Th17 cells on day 15, n = 3 independent cultures. (D) Mice with B16F10 were treated with 2 × 106 Th17 cells or REP Th17 cells after 5 Gy total body irradiation; n = 10 mice/group, representative of 2 independent experiments. (E) Percentage survival of cohorts treated with Th17 or REP Th17 cells; Kaplan-Meier curves compared by log-rank test. (F) Mean frequency (± SEM) of donor Th17 or REP Th17 cells in spleen of treated mice; n = 5–8 mice/group. (G) Mean frequency (± SEM) of donor Th17 or REP Th17 cells in tumors of treated mice; n = 5 mice/group. (H) Memory response of donor Th17 or REP Th17 cells evaluated by an in vivo cytotoxicity assay reported as mean percentage specific lysis (± SEM); n = 5–8 mice/group. Donor Th17 versus REP Th17 mean frequency and percentage specific lysis compared by Student’s t test. **P < 0.01. ns, not significant. TRP, CD4+ T cells with a TCR specific for tyrosinase-related protein-1.